Papers associated with midbrain (and notch1)

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	Information integration during bioelectric regulation of morphogenesis of the embryonic frog brain., Manicka S., iScience. December 15, 2023; 26 (12): 108398.
	Metamorphic gene regulation programs in Xenopus tropicalis tadpole brain., Raj S., PLoS One. January 1, 2023; 18 (6): e0287858.
	HCN2 channel-induced rescue of brain, eye, heart and gut teratogenesis caused by nicotine, ethanol and aberrant notch signalling., Pai VP., Wound Repair Regen. November 1, 2022; 30 (6): 681-706.
	Temporal and spatial transcriptomic dynamics across brain development in Xenopus laevis tadpoles., Ta AC., G3 (Bethesda). January 4, 2022; 12 (1):
	Hes5.9 Coordinate FGF and Notch Signaling to Modulate Gastrulation via Regulating Cell Fate Specification and Cell Migration in Xenopus tropicalis., Huang X., Genes (Basel). November 18, 2020; 11 (11):
	Xenopus embryos show a compensatory response following perturbation of the Notch signaling pathway., Solini GE., Dev Biol. April 15, 2020; 460 (2): 99-107.
	MiR-9 and the Midbrain-Hindbrain Boundary: A Showcase for the Limited Functional Conservation and Regulatory Complexity of MicroRNAs., Alwin Prem Anand A., Front Cell Dev Biol. January 1, 2020; 8 586158.
	Expression patterns of prune2 is regulated by Notch and retinoic acid signaling pathways in the zebrafish embryogenesis., Anuppalle M., Gene Expr Patterns. January 1, 2017; 23-24 45-51.
	An Evolutionarily Conserved Network Mediates Development of the zona limitans intrathalamica, a Sonic Hedgehog-Secreting Caudal Forebrain Signaling Center., Sena E., J Dev Biol. October 20, 2016; 4 (4):
	Expression of the insulinoma-associated 1 (insm1) gene in Xenopus laevis tadpole retina and brain., Bosse JL., Gene Expr Patterns. September 1, 2016; 22 (1): 26-29.
	Endogenous gradients of resting potential instructively pattern embryonic neural tissue via Notch signaling and regulation of proliferation., Pai VP., J Neurosci. March 11, 2015; 35 (10): 4366-85.
	Characterization of the Rx1-dependent transcriptome during early retinal development., Giudetti G., Dev Dyn. October 1, 2014; 243 (10): 1352-61.
	Spatial and temporal control of transgene expression in zebrafish., Akerberg AA., PLoS One. January 1, 2014; 9 (3): e92217.
	The heterotaxy gene GALNT11 glycosylates Notch to orchestrate cilia type and laterality., Boskovski MT., Nature. December 19, 2013; 504 (7480): 456-9.
	HNF1B controls proximal-intermediate nephron segment identity in vertebrates by regulating Notch signalling components and Irx1/2., Heliot C., Development. February 1, 2013; 140 (4): 873-85.
	Comparative Functional Analysis of ZFP36 Genes during Xenopus Development., Tréguer K., PLoS One. January 1, 2013; 8 (1): e54550.
	Early transcriptional targets of MyoD link myogenesis and somitogenesis., Maguire RJ., Dev Biol. November 15, 2012; 371 (2): 256-68.
	Notch destabilises maternal beta-catenin and restricts dorsal-anterior development in Xenopus., Acosta H., Development. June 1, 2011; 138 (12): 2567-79.
	Xenopus SMOC-1 Inhibits bone morphogenetic protein signaling downstream of receptor binding and is essential for postgastrulation development in Xenopus., Thomas JT., J Biol Chem. July 10, 2009; 284 (28): 18994-9005.
	In vitro organogenesis from undifferentiated cells in Xenopus., Asashima M., Dev Dyn. June 1, 2009; 238 (6): 1309-20.
	Xenopus BTBD6 and its Drosophila homologue lute are required for neuronal development., Bury FJ., Dev Dyn. November 1, 2008; 237 (11): 3352-60.
	Xenopus zinc finger transcription factor IA1 (Insm1) expression marks anteroventral noradrenergic neuron progenitors in Xenopus embryos., Parlier D., Dev Dyn. August 1, 2008; 237 (8): 2147-57.
	The competence of Xenopus blastomeres to produce neural and retinal progeny is repressed by two endo-mesoderm promoting pathways., Yan B., Dev Biol. May 1, 2007; 305 (1): 103-19.
	Expression and regulation of Xenopus CRMP-4 in the developing nervous system., Souopgui J., Int J Dev Biol. January 1, 2007; 51 (4): 339-43.
	Evi1 is specifically expressed in the distal tubule and duct of the Xenopus pronephros and plays a role in its formation., Van Campenhout C., Dev Biol. June 1, 2006; 294 (1): 203-19.
	Mxi1 is essential for neurogenesis in Xenopus and acts by bridging the pan-neural and proneural genes., Klisch TJ., Dev Biol. April 15, 2006; 292 (2): 470-85.
	Role of X-Delta-2 in the early neural development of Xenopus laevis., Peres JN., Dev Dyn. March 1, 2006; 235 (3): 802-10.
	Zebrafish id2 developmental expression pattern contains evolutionary conserved and species-specific characteristics., Chong SW., Dev Dyn. December 1, 2005; 234 (4): 1055-63.
	Identification of target genes for the Xenopus Hes-related protein XHR1, a prepattern factor specifying the midbrain-hindbrain boundary., Takada H., Dev Biol. July 1, 2005; 283 (1): 253-67.
	Frizzled 5 signaling governs the neural potential of progenitors in the developing Xenopus retina., Van Raay TJ., Neuron. April 7, 2005; 46 (1): 23-36.
	XSEB4R, a novel RNA-binding protein involved in retinal cell differentiation downstream of bHLH proneural genes., Boy S., Development. February 1, 2004; 131 (4): 851-62.
	A mutant form of MeCP2 protein associated with human Rett syndrome cannot be displaced from methylated DNA by notch in Xenopus embryos., Stancheva I., Mol Cell. August 1, 2003; 12 (2): 425-35.
	Expression of 5-HT2B and 5-HT2C receptor genes is associated with proliferative regions of Xenopus developing brain and eye., De Lucchini S., Brain Res Mol Brain Res. July 23, 2003; 115 (2): 196-201.
	Xenopus Nbx, a novel NK-1 related gene essential for neural crest formation., Kurata T., Dev Biol. May 1, 2003; 257 (1): 30-40.
	Xdtx1, a Xenopus Deltex homologue expressed in differentiating neurons and in photoreceptive organs., Andreazzoli M., Mech Dev. December 1, 2002; 119 Suppl 1 S247-51.
	XNAP, a conserved ankyrin repeat-containing protein with a role in the Notch pathway during Xenopus primary neurogenesis., Lahaye K., Mech Dev. January 1, 2002; 110 (1-2): 113-24.
	Xebf3 is a regulator of neuronal differentiation during primary neurogenesis in Xenopus., Pozzoli O., Dev Biol. May 15, 2001; 233 (2): 495-512.
	Hes6 acts in a positive feedback loop with the neurogenins to promote neuronal differentiation., Koyano-Nakagawa N., Development. October 1, 2000; 127 (19): 4203-16.
	Xotx5b, a new member of the Otx gene family, may be involved in anterior and eye development in Xenopus laevis., Vignali R., Mech Dev. August 1, 2000; 96 (1): 3-13.
	p27Xic1, a Cdk inhibitor, promotes the determination of glial cells in Xenopus retina., Ohnuma S., Cell. November 24, 1999; 99 (5): 499-510.
	XCoe2, a transcription factor of the Col/Olf-1/EBF family involved in the specification of primary neurons in Xenopus., Dubois L., Curr Biol. February 12, 1998; 8 (4): 199-209.
	Mouse Dll3: a novel divergent Delta gene which may complement the function of other Delta homologues during early pattern formation in the mouse embryo., Dunwoodie SL., Development. August 1, 1997; 124 (16): 3065-76.
	X-MyT1, a Xenopus C2HC-type zinc finger protein with a regulatory function in neuronal differentiation., Bellefroid EJ., Cell. December 27, 1996; 87 (7): 1191-202.
	Specific modulation of ectodermal cell fates in Xenopus embryos by glycogen synthase kinase., Itoh K., Development. December 1, 1995; 121 (12): 3979-88.
	Expression of achaete-scute homolog 3 in Xenopus embryos converts ectodermal cells to a neural fate., Turner DL., Genes Dev. June 15, 1994; 8 (12): 1434-47.
	Expression of an extracellular deletion of Xotch diverts cell fate in Xenopus embryos., Coffman CR., Cell. May 21, 1993; 73 (4): 659-71.

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